A Domain Decomposition of the Finite Element-Boundary Integral Method for Scattering by Multiple Objects

The standard hybrid finite-element boundary-integral ( ) FE᎐BI technique has been extended to deal with the problem of electromagnetic scattering from buried objects. The presence of the ground᎐air interface is taken into account by using the half-space Green's function, thus reducing the number of

A domain decomposition method (DDM) is presented for the solution of the timeharmonic electromagnetic scattering problem by inhomogeneous 3-D objects. The computational domain is partitioned into concentric subdomains on the interfaces of which Robin-type transmission conditions are prescribed. On t

## Abstract Non‐overlapping domain decomposition techniques are used to solve the finite element equations and to couple them with a boundary element method. A suitable approach dealing with finite element nodes common to more than two subdomains, the so‐called cross‐points, endows the method with

## Abstract An integral equation‐based overlapped domain decomposition method (IE‐ODDM) is presented for the analysis of three‐dimensional (3D) electromagnetic scattering problems. Compared with the forward and backward buffer region iterative method proposed by Brennan et al., the convergence of t